RU2477682C1 - Method of making cellular concrete mix - Google Patents

Abstract

FIELD: process engineering.

SUBSTANCE: invention relates to production of construction materials. Proposed device comprises mix components proportioners including lime, mix formula setting device, lime weight setting unit, temperature setting unit, and mixer with temperature gage to measure temperature in mix unloading. Additionally, it comprises unit to define dependence of relative factor of deviation of maximum temperature in mix curing on that in mix unloading at enthalpy variation, two comparators, divider, multiplier, unit setting device, and memory unit. Output of temperature setting unit is connected with direct input of first comparator and divider input. Output of first comparator is connected with input of divisible divider. Divider output is connected with unit to define dependence of relative factor of deviation of maximum temperature in mix curing on that in mix unloading at enthalpy variation. Output of the latter is connected with inverting input of second comparator with its direct input connected to output of unit setting device. Output of second comparator is connected to first input of multiplier while its second input is connected to lime weight setting device output. Multiplier output is connected with mix formula setting unit input. Output of the latter is connected with lime proportioner with its output connected to mixer input. Mix temperature gage output is connected with memory unit input. Output of the latter is connected with inverting input of first comparator.

EFFECT: higher quality.

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Description

The invention relates to the production technology of building materials and can be used in the manufacture of cellular concrete.

The closest device of the same purpose to the claimed invention in terms of features is a device for the operational prescription of aerated concrete mixture, including dispensers of the mixture components, including lime dispenser, prescription unit, mixer, plastometer P. A. Rebender, the output signal of which is supplied to the prescription unit / M.Ya. Krivitsky, N.I. Levin. Aerated Concrete, Moscow, 1972, pp. 9-11 / [1]. Adopted for the prototype.

The reasons that impede the achievement of the technical result indicated below when using the known device include a large investment of time for laboratory research.

The essence of the invention is to improve the quality of cellular concrete products and reduce the time to adjust the masses of the components of the mixture in the production of cellular concrete mixture.

The technical result - improving the quality of cellular concrete products, operational adjustment of the masses of the components of the mixture for the next batch when changing the enthalpy of lime.

The specified technical result during the implementation of the invention is achieved by the fact that in the known device containing dispensers of the mixture components, including a lime dispenser, a recipe setting unit that contains a lime mass setting unit, a temperature setting unit, a mixer with a sensor for measuring the temperature of the mixture in the moment of unloading, the peculiarity lies in the fact that the device additionally contains a block that implements the dependence of the relative coefficient of deviation of the maximum temperature during exposure with If the relative temperature deviation coefficient at the time of unloading of the mixture when the enthalpy β = f (γ) changes, two comparison devices, a division unit, a multiplication unit, a unit setting unit, a memory unit, the output of the temperature setting unit being connected to the direct input of the first comparison device and with the input of the divider of the division unit, the output of the first comparison device is connected to the input of the divisible division unit, the output of the division unit is connected to the input of the unit realizing the dependence of the relative deviation coefficient maximum the temperature during exposure of the mixture from the relative coefficient of temperature deviation at the time of unloading the mixture when the enthalpy β = f (γ) changes, the output of which is connected to the inverse input of the second comparison device, the direct input of which is connected to the output of the unit of reference unit, the output of the second device the comparison is connected to the first input of the multiplication unit, and its second input is connected to the output of the lime mass unit, the output of the multiplication unit is connected to the input of the prescription unit, the output of which is connected to doses lime torus, whose output is connected to the input of the mixer, the temperature of the probe mixture output coupled to an input of the storage unit, the output of which is connected to the inverted input of the first comparator.

The drawing shows a functional diagram of a device for the production of aerated concrete mixture, where the following notation is accepted: block for setting the temperature when unloading T _BO 2, block for setting recipe 6, which contains a block for setting the mass of lime m ₀ 1, a block that implements the dependence of the relative coefficient deviations of the maximum temperature during the exposure of the mixture from the relative coefficient of temperature deviation at the time of unloading of the mixture with a change in the enthalpy β = f (γ), 4, memory unit 13, the first device Nia 10 and a second comparison unit 11, dividing unit 3, a multiplier 12, the reference units 5, 7 dispensers mixture components, a mixer 8 with a temperature measuring sensor at the time of discharge mixture 9.

Information confirming the possibility of carrying out the invention with obtaining the above technical result are as follows. As a unit for setting the temperature when unloading T _BO 2, a unit for setting recipe 6, which contains a unit for setting the mass of lime m ₀ 1, a unit that implements the dependence of the relative coefficient of deviation of the maximum temperature during exposure of the mixture on the relative coefficient of temperature deviation at the time of unloading mixtures when changing the enthalpy β = f (γ), 4, the first comparison device 10 and the second comparison device 11, division unit 3, multiplication unit 12, unit setting unit 5, memory unit 13 can be implemented, for example Imer, on the basis of the microprocessor program in industrial design, for example, SIMATIC S7-300 Siemens company. As software, you can use the SIMATIC STEP 7 Professional environment. Mixing in the mixer 8 can be carried out, for example, “VIBROMASTER BPG-800” manufactured by STC “Stroyinform” / http://www.stroyinform.ru/instruments.aspx?iid=1&id=25/[2]. As a sensor for measuring temperature at the time of unloading of mixture 9, a TTS type thermal resistance converter (temperature sensors - thermal resistance) can be used, for example, DTSXX5. Measurement is carried out in a concrete mixer.

The output of the temperature setting unit when unloading T _BO 2 is connected to the direct input of the first comparison device 10 and to the input of the divider of the division unit 3, the output of the first comparison device 10 is connected to the input of the divisible division unit 3, the output of the division unit 3 is connected to the input of the unit realizing the dependence of the relative the coefficient of deviation of the maximum temperature during exposure of the mixture from the relative coefficient of temperature deviation at the time of unloading the mixture with a change in the enthalpy β = f (γ), 4, the output of which is connected inverted input of the second unit of comparison 11, the direct input of which is connected to the output reference unit 5, a second comparator output unit connected to the first input of the multiplication 12, and its second input connected to the output weight setting unit lime m ₀ 1 output the multiplication unit 12 is connected with the input of the prescription task unit 6, the output of which is connected to the dispensers of the mixture components 7, the output of which is connected to the input of the mixer 8, the output of the temperature measurement sensor of the mixture at the time of unloading 9 of which is connected to the input of the memory unit 13, output the memory unit 13 is connected to the inverse input of the first comparison device 10.

The device operates as follows. The temperature setting block when unloading T _BO 2 generates a temperature setting signal when unloading the mixture T _BO , which is fed to the input of the division unit 3 and to the direct input of the first comparison device 10. The signal from the output of the memory block 13 is output to the inverse input of the first comparison device 10. the sensor for measuring the temperature of the mixture at the time of unloading 9 is connected to the input of the memory unit 13. The temperature value T _{B is} stored in the memory unit 13 and is updated there after unloading of the next batch. The output of the first comparison device 10 is connected to the input of the divisible division unit 3. At the output of the division unit 3, the coefficient γ = (T _BO -T _B ) / T _{BO is formed} . At the output of the block that implements the dependence of the relative coefficient of deviation of the maximum temperature during exposure of the mixture on the relative coefficient of temperature deviation at the time of unloading of the mixture, when the enthalpy value β = f (γ) changes, signal β is generated, which is fed to the inverse input of the second comparison device 11, direct the input of which is connected to the output of the unit 5 reference unit. At the output of the second comparison device 11, a signal (1-β) is generated, which is fed to the second input of the multiplication unit 12. The first input Lok multiplication 12 connected to the output setting unit mass m ₀ 1 lime, forming the signal defining the value of the mass m _0. Therefore, at the output of the multiplication unit 12, a signal is generated that determines the lime mass value m = m ₀ · (1-β), which is fed to the input of the prescription unit 6. The output of the prescription unit is fed to the input of the dispensers of the mixture components 7, the output of which is connected to the mixer 8, equipped with a sensor for measuring the temperature of the mixture at the time of unloading. If the temperature of the mixture at the time of unloading is T _B = T _BO , then at the output of the division unit 3 the coefficient value is γ = 0, therefore, at the output of the unit realizing the dependence of the relative coefficient of deviation of the maximum temperature during exposure of the mixture on the relative coefficient of temperature deviation at the time of unloading mixture when the enthalpy value changes, β = f (γ), 4 the coefficient β = 0, therefore, the mass value at the output of the multiplication unit is 12 m = m ₀ , and lime dosage adjustment does not occur. If the temperature of the mixture at the time of unloading is T _B ≠ T _BO , then at the output of division unit 3 the coefficient value is γ ≠ 0, and the sign of γ depends on the sign of the mismatch (T _BO -T _B ). As a result, at the output of the block realizing the dependence of the relative coefficient of deviation of the maximum temperature during exposure of the mixture on the relative coefficient of temperature deviation at the time of unloading of the mixture when the enthalpy β = f (γ) changes, 4 the value of coefficient β is determined, determined by the experimental dependence β = f (γ), implemented in a block realizing the dependence of the relative coefficient of deviation of the maximum temperature during exposure of the mixture from the relative coefficient coagulant temperature deviation at the time of discharging the mixture when the value of the enthalpy β = f (γ), 4. Therefore, the value of the mass at the output of multiplier 12 is defined by dependence m = m ₀ + (1-β), and correction is performed lime dosing for the next batch. This leads to the fact that the temperature of the mixture during the unloading of the next batch T _B approaches the value of the temperature of the mixture during unloading T _BO , set by the temperature setting unit when unloading T _BO 2.

The claimed device allows you to automatically quickly clarify the value of the mass of lime in the formulation in the production of aerated concrete mixture.

Using the claimed device, the quality of production of cellular concrete products is improved due to the stabilization of the temperature regime during the extinguishing of lime and the time for adjusting the mass of the mixture components is reduced.

Information sources

1. M.Ya. Krivitsky, N.I. Levin. Aerated Concrete, Moscow, 1972, pp. 9-11.

2.http: //www.stroyinform.ru/instruments.aspx? Iid = 1 & id = 25.

3. Instructions for the manufacture of cellular concrete products SN 277-80. GOSSTROY USSR, 02/07/1980. - Section 5. http://www.snip-info.ru/Sn_277-80.htm.

Claims (1)

A device for the production of aerated concrete mixture, including dispensers for the components of the mixture, including a lime dispenser, a prescription unit with a lime mass setting unit, a temperature setting unit, a mixer with a sensor for measuring the temperature of the mixture at the time of unloading, characterized in that it additionally contains a block that implements the dependence of the relative coefficient of deviation of the maximum temperature during exposure of the mixture from the relative coefficient of temperature deviation at the time of unloading the mixture at To change the enthalpy value, two comparison devices, a division unit, a multiplication unit, a unit of unit assignment, a memory unit, the output of the temperature setting unit being connected to the direct input of the first comparison device and to the input of the divider of the division unit, the output of the first comparison device is connected to the input of the divisible division unit , the output of the division block is connected to the input of the block realizing the dependence of the relative coefficient of deviation of the maximum temperature during exposure of the mixture on the relative coefficient of deviation t temperature at the time of unloading the mixture when the enthalpy value changes, the output of which is connected to the inverse input of the second comparison device, the direct input of which is connected to the output of the unit of reference units, the output of the second comparison device is connected to the first input of the multiplication unit, and its second input is connected to the output of the task unit lime mass, the output of the multiplication unit is connected to the input of the prescription task unit, the output of which is connected to the lime batcher, the output of which is connected to the mixer input, the output of the temperature measuring sensor, see B is connected to the input of the storage unit, the output of which is connected to the inverted input of the first comparator.

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